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Wood Design & Building Magazine, vol 25, issue 101

Every issue of Wood Design & Building tells a different story about how wood is shaping contemporary construction. Some editions revolve around a clear theme such as our recent issue on strategic additions and adaptive reuse; others, like this one, reflect the diversity of challenges, innovations, and contexts that define wood construction today. What unites the features in this issue is not a single building type or region, but a shared commitment to thoughtful planning, ingenuity, and execution.

We begin in the mountains of British Columbia, where the Robson Cabin project pushes the limits of planning and coordination. Accessible only by helicopter, the remote alpine site demanded meticulous preparation, high levels of prefabrication, and an unwavering attention to detail. Alongside the technical complexity, the construction crew also contended with less predictable site conditions—including a persistent population of porcupines, whose curiosity added a memorable twist to an already remarkable build.

From there, we turn to one of the most sought-after—and often elusive—topics in the industry: cost. Reliable, project-specific costing data for mass timber buildings remains rare, and cost uncertainty can be a barrier to wider adoption of mass timber construction. This issue features an overview of a new mass timber business case study published by WoodWorks BC, which presents detailed cost, schedule, and design data from three projects. By comparing mass timber systems to conventional construction approaches across three building types, the study offers valuable insight into real-world construction costs, decision-making, and the strategies that can bring mass timber into cost parity.

Our final feature takes us to Trenton, Nova Scotia, for a virtual construction tour of the Pictou County Sports Heritage Hall of Fame, a community-focused project being realized through close collaboration between designers, builders, and trades. The one-storey building brings together panelized engineered wood walls, traditional light wood frame construction, and a central mass timber foyer, showcasing a deliberate “right material in the right place” approach. Built using offsite fabrication and carefully sequenced installation, the project demonstrates how coordination and precision can be leveraged to deliver a refined wood building that balances efficiency, constructability, and architectural expression.

Together, these stories offer a snapshot of a sector defined by creativity, technical rigor, and resilience—whether navigating rugged mountain terrain, unpacking the realities of construction costs, or reimagining how cultural buildings are delivered. We hope they inform, inspire, and perhaps even entertain.

Tall Timber and Affordable Housing: A Case Study

Course Overview

As cities face growing pressures around affordability, climate resilience, and livability, innovative projects like Catalyst’s 18-storey CLT rental development in North Vancouver offer necessary solutions. Targeted toward architects, engineers, developers, and municipal leaders, this session explores sustainable mass timber construction and affordable housing. Attendees will gain insights into using CLT in construction and the unique challenges. In-depth review of challenges such as structural grid constraints, moisture protection, and prefabricated balcony systems, and how the team transformed these into creative solutions. Furthermore, it will provide insight into integrated mixed-use programming, BIM-enhanced coordination, and the permitting process for tall wood buildings, with practical takeaways for implementing similar projects in other cities.

Learning Objectives

  1. Identify how and why hybridization is commonly required at height when it comes to mass timber buildings.
  2. Explain key technical constraints and solutions for tall CLT buildings, including structural grid/panelization limits, diaphragm load paths to the core, rolling shear considerations, and balcony-to-envelope integration strategies.
  3. Apply practical construction and coordination lessons for tall mass timber—moisture management, prefabricated enclosure sequencing, BIM-based clash detection, and early supplier/contractor involvement—to reduce risk and protect the CLT during construction.

Course Video

https://vimeo.com/1165681230

Speakers Bio

Rhys Leitch
Principal
Integra Architecture Inc.

Rhys Leitch has been a principal at Integra since 2018, he has worked on award-winning projects ranging from sustainable design, high-end single-family, multi-family, and mixed-use residential developments. Originally from Australia, Rhys brings a unique approach to contemporary west coast architecture, paying special attention to the way materials, massing, and design respond to the context of a site. Recently his focus has been CLT mid and high rise projects, pushing the boundaries in different mass timber housing typologies.

Sean Binns
Project Director
Kindred Construction

Sean is a proven construction leader with over 20 years of experience delivering major residential and commercial projects across the UK and Canada. As Project Director at Kindred Construction, he leads complex builds and champions innovation in mass timber, Passive House, and modular construction. A mentor and speaker, Sean fosters industry talent through strong partnerships with local universities.

Harrison Glotman
Principal
Glotman Simpson Consulting Engineers

Harrison Glotman is a Principal at Glotman Simpson with several years of experience working on complex projects across Canada and the U.S. Prior to joining Glotman Simpson, Harrison worked on high-end homes and retrofits in some of the most iconic buildings in New York and San Francisco. He completed his Master of Science in Structural Engineering with a full scholarship to Stanford University where he specialized in seismic engineering. The knowledge gained through this degree has proven to be incredibly valuable in building design on the West Coast.

Dowel Laminated Timber A new mass timber product in North America

Course Overview

Dowel‐laminated timber is a next generation mass timber product commonly used in Europe, where it is also known as brettstapel. Panels are made from softwood lumber boards stacked like the boards of NLT, friction‐fit together with hardwood beech dowels instead of nails. DLT is the only mass timber product which is 100 per cent wood – it involves no glue or nails. Unique to DLT as a mass timber product, acoustic profiles can be integrated directly into the bottom surface of a panel. DLT panels processed using CNC machinery create a high tolerance panel which can also contain pre‐integrated electrical conduit and other service runs. StructureCraft will be the first manufacturer of DLT in North America, with a new automated manufacturing line and plant beginning production in 2017. This presentation will discuss how DLT differs from other mass timber products in its use and specification. Topics will include potential applications, introduction to the design and construction process and costs.

Learning Objectives

  1. What is Dowel Laminated Timber?
  2. Potential applications of DLT.
  3. Introduction to design and construction detailing.
  4. Product availability and cost.

Course Video

https://vimeo.com/1109949607?share=copy

Speaker Bio

Lucas Epp
Head of Engineering
StructureCraft

Lucas Epp is a structural engineer with 10 years of experience working throughout Canada, the UK, and New Zealand. While in London he designed a range of projects with world class architects and developed an expertise in complex geometry and challenging structures. Lucas leads the engineering department at StructureCraft where he has been involved in large-scale timber structures including the 2012 Vancouver Olympics Oval and more recently as lead engineer for the T3 Minneapolis office building.

CLT Design Considerations

Course Overview

Mass Timber has arrived in the world capital infrastructure marketplace while architects and structural engineers are trying to get educated about how to design with this new advanced engineered wood material. This paper discusses three important aspects of mass timber design in outdoor and indoor (wet and dry service) conditions as well as important design questions such as major and minor axis horizontal shear as it relates to column and wheel point loads. Other design considerations will be discussed as well.

Learning Objectives

  1. Mass timber design details for outdoor and indoor environmental exposure. 
  2. Point loads due to column loading in mass timber systems both post and beam and CLT and simple platform and column.
  3. Fire resistance ratings and advanced materials in mass timber buildings
  4. Minor and major axis shear characteristics of CLT and impacts on design considerations for civil infrastructure.

Course Video

https://vimeo.com/1046518992

Speaker Bio

Dan Tingley, Ph.D., P.Eng., MIEust, CPEng., RPEQ,
Senior Wood Technologist / Structural Engineer
Wood Research and Development (WRD) Oregon, USA and Caboolture, QLD, Australia

Dr. Dan Tingley graduated from University of New Brunswick with a B. Sc. F.E. and later a M.Sc.C.E. Following this in the 90’s Tingley finished his Ph.D. in wood technology and structural engineering at Oregon State University. He has worked in the wood products field for 40 years. He currently serves as senior engineer for Wood Research and Development and Advanced Research and Development and makes his base in Portland Oregon. He has won the Civil Engineering Research Foundation’s Charles Pankow Award for Structural Innovation as well as the Nova Award for all construction products issued by Construction Innovation Forum for his pioneer work in high strength fiber reinforcement of wood and wood composites. Tingley holds over 40 patents worldwide and has over 125 referred and non referred publications. He specializes in timber structures design and restoration with a significant interest in timber bridges. He is currently acting as senior engineer providing oversight on 20 timber bridge restoration projects world-wide.

Building Confidence in Low Carbon Construction: De-risking Mass Timber

Course Overview

This presentation explores how insurance can unlock opportunity by aligning risk strategies with sustainability goals. It will provide an analysis of the Canadian and Global insurance market and explain why mass timber has become such a hot topic for insurers. Critical risk mitigation strategies will be discussed as well as various options on how to address many of the more common moisture management problems encountered in construction.

Learning Objectives

  1. Why is Mass Timber a focus area of the insurance industry?
  2. How do I design and position my project to achieve cost effective risk transfer?
  3. What are some of the most common types of insured loss and how do I avoid them?

Course Video

https://vimeo.com/1154033104

Speakers Bio

Alicia Clendenan
SVP – National Director of Sustainable Construction
Aon

Alicia is a socially conscious business professional with a passion for complex construction and infrastructure projects. She leads Aon’s Sustainable and Alternative Construction practice across Canada and has more than 15 years of risk and insurance advisory experience. She also serves as Aon’s global mass timber working group chair and is involved in a number of industry initiatives aimed at reducing barriers to insurance for mass timber construction as well as enhancing both the breadth of coverage offered by insurers and improving the industry adopted best practices for risk mitigation in construction.

Mass Timber

Advancements in wood product technology and systems are driving the momentum for innovative buildings in Canada. Products such as cross-laminated timber (CLT), nailed-laminated timber (NLT), glued-laminated timber (GLT), laminated strand lumber (LSL), laminated veneer lumber (LVL) and other large-dimensioned structural composite lumber (SCL) products are part of a bigger classification known as ‘mass timber’.

Although mass timber is an emerging term, traditional post-and-beam (timber frame) construction has been around for centuries. Today, mass timber products can be formed by mechanically fastening and/or bonding with adhesive smaller wood components such as dimension lumber or wood veneers, strands or fibres to form large pre-fabricated wood elements used as beams, columns, arches, walls, floors and roofs. Mass timber products have sufficient volume and cross-sectional dimensions to offer significant benefits in terms of fire, acoustics and structural performance, in addition to providing construction efficiency.

Mass Timber Insurance Action Plan Phase 1 Report

Mass Timber Insurance Action Plan – Phase 1 Report examines one of the most significant barriers to scaling mass timber construction in Canada: access to affordable and reliable insurance.

While mass timber offers clear advantages in sustainability, performance, and long-term value, course-of-construction insurance rates remain disproportionately high—often several times those of concrete and steel—driven largely by limited data and insurer unfamiliarity rather than demonstrated risk.

Led by the Climate Smart Buildings Alliance and the Canadian Wood Council, and supported by Natural Resources Canada, this report summarizes the findings from Phase 1 of a national action plan developed in collaboration with insurance and building industry stakeholders. It evaluates the feasibility of four targeted solutions focused on data sharing, insurer-relevant research, contractor verification, and expanding insurance capacity.

Bringing together technical insight and industry perspectives, the report outlines practical pathways to reduce risk perception, improve market confidence, and unlock greater adoption of mass timber construction across Canada.

Building Code Evolution: Understanding the Latest Mass Timber Provisions

Course Overview

WoodWorks and the BC Office of Mass Timber Implementation present a brief, but detailed technical webinar focusing on the recently adopted provincial code provisions.

Learning Objectives

Beyond the introduction of a new, 18 storey limit, you will:

  1. Learn the additional changes for various different occupancies, building heights, and construction requirements that will help you enhance your future projects with exposed or encapsulated mass timber. 
  2. Gain insights into the national landscape, understanding how these code amendments might reverberate across other provinces in Canada.

Course Video

https://vimeo.com/953686398/35b4c6d5f9

Speaker Bio

Cameron McDonald
Technical Solutions Lead, Office of Mass Timber Implementation
Ministry of Jobs, Economic Development and Innovation

Cam is a former level 3 building official and BOABC member. He now works in the Office of Mass Timber Implementation, under the Ministry of Jobs, Economic Development and Innovation, as the Lead of Technical Solutions and played an active role in the development of the new code provisions for EMTC in BC.

Derek Ratzlaff, P.Eng., Struct.Eng., PE
Technical Director, WoodWorks BC
Canadian Wood Council

Derek began his career in the wood industry in high school working on single and multi-family light wood construction, after university and almost 20 years of structural consulting experience, Derek has worked in all types of wood construction and played key roles in the delivery of iconic BC wood structures, the Richmond Olympic Oval and Grandview Heights Aquatic Centre. He brings his experience in design and construction to support the industry as the Woodworks BC Technical Director. 

Unlocking Insights: Mass Timber Fire Performance

Course Overview

Coming Soon

Learning Objectives

The presentation will be focused on providing a summary of the Mass Timber Demonstration Fire Test Program’s results and include the following segments:

  1. Introduction and background on what led to the demonstration fire tests.
  2. Overview of research prior to the demonstration fire tests and the contribution of the demonstration fire tests to the understanding of the fire performance of mass timber construction.
  3. Review of the five fire scenarios including the design, videos of the tests, and discussion of the results.
  4. Overview of National Research Council’s report including data collection, analysis, and conclusions.
  5. Q&A session to allow participants the opportunity to seek clarification or additional information.

Course Video

https://vimeo.com/1046525052

Speaker Bio

Steven Craft, PhD, P.Eng.
Founding Partner
CHM Fire Consultants Ltd

Dr. Steven Craft is a founding partner of CHM Fire Consultants Ltd located in Ottawa and Toronto, ON. He served as an Adjunct Professor in the Fire Safety Engineering Program at Carleton University from 2010- 2019 and was a Research Scientist with Canada’s National Forest Products Research Institute (FPInnovations) from 2006-2011. He has an undergraduate degree in Forest Engineering from the University of New Brunswick and a PhD in Fire Safety Engineering from Carleton University. He is the Chair of the ULC Fire Test Committee, is a Vice-chair of ASTM Committee on Fire Standards and is on the Technical Committee for the Canadian Wood Design Standard, CSA O86, where he Chairs the Task Group on Fire Resistance. Dr. Craft has been involved in over 20 significant mass timber building projects across Canada and multiple large-scale fire tests on mass timber construction.

Benefits of Building with Mass Timber

Course Overview

Building with mass-timber elements affords a contractor many benefits including quality, accuracy and time. But contractors are often unaware of these benefits until immersed in a new project. With the conversion experience had by Willmott Dixon the company advanced its skills has served to inform their clients and the designers with whom they work.

Learning Objectives

  1. How a large construction company – transitioned to include mass timber projects in its portfolio.
  2. How to evaluate key business considerations — cost, time, environment.
  3. How building with mass timber can change the construction planning process — engaging with design teams and clients.
  4. How mass-timber projects came to fruition.

Course Video

https://vimeo.com/1109778977?share=copy#t=0

Speaker Bio

Duncan Purvis

With nearly a quarter of a century of experience in the construction industry in operational, commercial, sales, bid writing, marketing and most aspects of the delivery of complex construction projects and offers a 100% customer journey that is built on true trust. With many construction projects from Four Seasons Miami, Natural History Museum London, Pfizer’s European headquarters and many more high-prestige projects. Duncan is proudest of the Multiple Schools projects, that with his Structured Timber Solution, are providing high quality teaching environments that are not only fully sustainable and highly efficient, but also work out as some of the most economical teaching spaces available in Europe.

Optimizing Outcomes: Leveraging Design Assist for Excellence

Course Overview

Join Melissa Kindratsky, a seasoned engineering expert and Head of Engineering at Kalesnikoff, as she shares insights and strategies on leveraging Design Assist to achieve optimal outcomes in mass timber construction projects. This presentation will delve into the key principles and methodologies essential for employing Design Assist to drive excellence in project execution, with a focus on enhancing collaboration between designers, suppliers/manufacturers, builders, and stakeholders. Melissa will draw from her extensive experience in the industry, providing practical guidance and real-world examples to highlight the advantages and best practices of Design Assist, ultimately showcasing its potential for elevating project efficiency, innovation, and overall success.

Learning Objectives

  1. Understand how the development of a mass timber project differs from that of buildings designed in concrete or steel.
  2. Understand the enhanced role the material supplier / manufacturer plays in the successful delivery of mass timber projects.
  3. Explore how engaging the mass timber manufacturer early on for design assistance can help optimize the structural design of the project for maximum structural and material efficiency.
  4. Learn how design assist collaboration with the fabricator can also facilitate cost certainty, faster and more accurate building completion, shorter construction timelines, and less labor for installation.

Course Video

https://vimeo.com/1046524670

Speaker Bio

Melissa Kindratsky P.Eng., LEED AP BD+C
Head of Engineering
Kalesnikoff

Melissa has over 20 years of experience practicing as a structural engineer with a focus on timber structures. She has a particular expertise and passion for connection design and structural concept development and has played a key role in the design and detailing of several notable mass timber projects, including: 2150 Keith Drive, Humber College Student Residence, New Westminster Aquatic and Community Center, and many more.

Guidance for Using Alternative Solutions

Course Overview

Unlock construction innovation with our webinar, Guidance for Using Alternative Solutions. Navigate the unique pathway outside of traditional building solutions with a focus on the process in BC. Learn who to engage and when. Our experts provide insights into effective communication, the right information to include, and crafting compelling rationales for both designers and municipalities. Revolutionize your approach to construction compliance and embrace a new era of building possibilities!

Learning Objectives

  1. Understand the process and benefits of using alternative solutions for mass timber construction within the framework of current building codes – how can alternative solutions be proposed to incorporate mass timber effectively.
  2. Analyze the integration of mass timber with traditional building systems and materials to achieve compliance and enhance building performance – achieve code compliance and optimal structural, fire safety, and environmental performance.
  3. Evaluate the challenges and strategic approaches involved in navigating the approval process for mass timber alternative solutions – procedural, technical, and regulatory challenges and strategies to address them.
  4. Discuss the future implications and potential regulatory changes for mass timber construction as alternative solutions become more mainstream.

Course Video

https://vimeo.com/1046523397

Speaker Bio

Derek Newby
Managing Director
Perkins & Will – Vancouver and Calgary

Joe Krevs, P.L. Eng.
Code Consultant
Ratio Code Consultants Ltd.

Jeff Mitchell, M Eng, P Eng, CP
Principal
GHL Consultants

Kevin To, M Eng, P Eng, ing, CP
Code Consultant
GHL Consultants

Henning White, P.L. Eng, CFPS
Code Consultant
Ratio Code Consultants Ltd.

Overview of the Canadian Mass Timber Technical Guide
...How mass timber can be incorporated into a variety of structural projects that typically utilize other materials. Design considerations for utilizing mass timber and how the Mass timber guide can...
Bringing Mass Timber Mainstream: Unpacking Market Challenges and Opportunities
...leading experts in North America on Mass Timber. As an outspoken advocate for Mass Timber, Scott promotes education and information sharing within the Mass Timber community. Having worked in B.C....
Mass Timber Economics: Why One Line Item Doesn’t Tell the Whole Story
Course Overview Mass timber buildings are often perceived as premium projects, but assumptions based on a single cost line can be misleading. This session explores the complexities of costing mass...
Guide to Encapsulated Mass Timber Construction in the Ontario Building Code
...will be reviewed along with what it means for future mass timber building design. Guide to Encapsulated Mass Timber Construction in the Ontario Building Code: Encapsulated mass timber construction (EMTC)...
Delivering Mid-Rise Housing Solutions – Part 2 Mass Timber
...producer in Ontario. Patrick’s specialty lies in his ability to orchestrate mass timber solutions together with a consortium of the industry’s best service providers with experience in mass timber. He...
Understanding the New EMTC Provisions in the Ontario Building Code
...will be reviewed along with what it means for future mass timber building design. Guide to Encapsulated Mass Timber Construction in the Ontario Building Code: Encapsulated mass timber construction (EMTC)...
Halsa 230 Royal York: Ontario’s Tallest Mass Timber Residential Building
...building’s mass timber components, and how these features address common challenges in high-rise construction. Evaluate the sustainability, regulatory, and operational considerations in developing carbon-neutral mass timber buildings: Learners will assess...
Construction Moisture Management of Mass Timber Buildings
Course Overview Mass timber buildings are transforming the way we build—but with new materials come new challenges. This session will explore how moisture risks in mass timber construction and how...
Overview of the Ottawa Mass Timber Fire Test
...performance of mass timber construction will be reviewed briefly to provide the background necessary to understand how the latest tests support the design of taller and larger mass timber buildings....
Timber for the Masses
Course Overview With so many compelling reason to build with mass timber the question is no longer ‘why?’ but ‘how?’. As a construction method in its own right, mass timber...
Early Mass Timber Collaboration: A Journey from Design Assists Pre-Construction through Construction
...onboarding of a mass timber erector, to the engagement of a mass timber specialists examining topics from erection tolerances to moisture and construction protection, to storage procedures, to fire retardant...
Sound and Vibration in Mass Timber Buildings: A Practical Guide
...initiatives aimed at helping maximize exposed mass timber while still adhering to code requirements.   This webinar will also examine the sound absorptive properties of mass timber, which play a...
Course Overview This session examines the growing potential of point-supported mass timber systems in tall building construction, contrasting them with traditional timber...
Course Overview This session will feature thought leaders in a podcast-style conversation exploring the evolving role of wood in Canadian construction. Through a series of...
Course Overview The emerging use of mass timber in industrial buildings presents promising opportunities that are shaping the future of construction in this sector. As a...
Course Overview As the push for sustainable residential development intensifies, mass timber is increasingly taking a central role in how we reshape city building approaches....
In addition to combustible, heavy timber and noncombustible construction, a new construction type is presently being considered for inclusion into the National Building Code...
Course Overview As global adoption of mass timber construction accelerates, a growing number of solutions are available in the marketplace that can contribute to the success...
Course Overview This session will present a vision and business case for innovation, sustainability, and affordability for the tallest residential wood tower in the world...
Course Overview In 2021, YW of Kitchener-Waterloo (YWKW) obtained funding from the federal Rapid Housing Initiative (RHI) to construct supportive housing for homeless women...
Course Overview As Toronto grows, so does the need for housing and energy. The use of wood products presents a tremendous opportunity to meet these essential needs while...
Course Overview This presentation highlights the Canadian Wood Council’s suite of free, web-based fire design tools, CodeCHEK, FRR & STC Tool, and Exposed Mass Timber...
Course Overview Learn how leading cities across BC are supporting the adoption of modern methods of construction. This session will explore what policies and incentives...
Course Overview Canadian Nuclear Labs’ Chalk River Laboratories comprise the largest single complex in Canada’s science and technology community. The site contains more...
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